def test_stackedAreaChart(self): """Test Stacked Area Chart""" type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=400) nb_element = 100 xdata = range(nb_element) xdata = list(map(lambda x: 100 + x, xdata)) ydata = [i + random.randint(1, 10) for i in range(nb_element)] ydata2 = list(map(lambda x: x * 2, ydata)) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.buildhtml()
def test_stackedAreaChart(self): """Test Stacked Area Chart""" type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=400) nb_element = 100 xdata = list(range(nb_element)) xdata = [100 + x for x in xdata] ydata = [i + random.randint(1, 10) for i in range(nb_element)] ydata2 = [x * 2 for x in ydata] chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.buildhtml()
def test_stackedAreaChart(self): """Test Stacked Area Chart""" type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=400) nb_element = 100 xdata = range(nb_element) xdata = map(lambda x: 100 + x, xdata) ydata = [i + random.randint(1, 10) for i in range(nb_element)] ydata2 = map(lambda x: x * 2, ydata) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.buildhtml()
def compare_revisions(title1, title2, lang="en"): """ Presents the recent revisions of the two given Wikipedia pages as an interactive NVD3 chart. """ chart = nvd3.stackedAreaChart(name='stackedAreaChart',height=450,width=800,use_interactive_guideline=True, x_is_date=True, date_format="%d %b %Y") r1, r2 = get_two_revision_series(title1, title2, lang) x = [int(time.mktime(idx.timetuple()) * 1000) for idx in r1.index] y = [[int(count) for count in np.asarray(np.cumsum(r))] for r in [r1, r2]] chart.add_serie(name=title1, y=y[0], x=x) chart.add_serie(name=title2, y=y[1], x=x) chart.buildhtml() # Export the chart to a standalone HTML file in the special /cdn # folder. fname = "chart_%s_%s.html" % (title1, title2) file("/cdn/%s" % fname, "w").write(chart.htmlcontent) # Return an IPython HTML widget containing an IFrame tag. The iframe # contains a relative reference (no path) to the HTML file we just # created, which works because the file is in the special /cdn folder. return IPython.display.HTML("<iframe src='%s' width=1000px height=550px>" % fname)
extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S"} # extra_serie = None chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.add_serie(name="serie 3", y=ydata3, x=xdata, extra=extra_serie) chart.add_serie(name="serie 4", y=ydata4, x=xdata, extra=extra_serie) chart.buildcontent() output_file.write(chart.htmlcontent) # --------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(height=400, width=800, x_is_date=True, x_axis_format="%d %b %Y %I", jquery_on_ready=True) chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") xdata = list(range(nb_element)) xdata = [start_time + x * 1000000000 for x in xdata] ydata = [i + random.randint(1, 10) for i in list(range(nb_element))] ydata2 = [x * 2 for x in ydata] extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S %p"} chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.buildcontent() output_file.write(chart.htmlcontent)
extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S"} #extra_serie = None chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.add_serie(name="serie 3", y=ydata3, x=xdata, extra=extra_serie) chart.add_serie(name="serie 4", y=ydata4, x=xdata, extra=extra_serie) chart.buildcontent() output_file.write(chart.htmlcontent) #--------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=350, date=True, x_axis_format="%d %b %Y %I", jquery_on_ready=True) chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") xdata = list(range(nb_element)) xdata = [start_time + x * 1000000000 for x in xdata] ydata = [i + random.randint(1, 10) for i in list(range(nb_element))] ydata2 = [x * 2 for x in ydata] extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S %p"} chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.buildcontent() output_file.write(chart.htmlcontent)
ydata2 = map(lambda x: x * 2, ydata) ydata3 = map(lambda x: x * 3, ydata) ydata4 = map(lambda x: x * 4, ydata) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.add_serie(y=ydata3, x=xdata) chart.add_serie(y=ydata4, x=xdata) chart.buildhtml() output_file.write(chart.htmlcontent) #--------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=350) chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") nb_element = 100 xdata = range(nb_element) xdata = map(lambda x: 100 + x, xdata) ydata = [i + random.randint(1, 10) for i in range(nb_element)] ydata2 = map(lambda x: x * 2, ydata) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.buildhtml() output_file.write(chart.htmlcontent) #--------------------------------------- type = "linePlusBarChart"
#!/usr/bin/python # -*- coding: utf-8 -*- """ Examples for Python-nvd3 is a Python wrapper for NVD3 graph library. NVD3 is an attempt to build re-usable charts and chart components for d3.js without taking away the power that d3.js gives you. Project location : https://github.com/areski/python-nvd3 """ from nvd3 import stackedAreaChart # Open File for test output_file = open('test_StackedAreaChart.html', 'w') chart = stackedAreaChart(name='stackedAreaChart', height=400, width=400) xdata = [100, 101, 102, 103, 104, 105, 106] ydata = [6, 11, 12, 7, 11, 10, 11] ydata2 = [8, 20, 16, 12, 20, 28, 28] extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " min"}} chart.add_serie(name="Serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="Serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.buildhtml() output_file.write(chart.htmlcontent) output_file.close()
ydata2 = map(lambda x: x * 2, ydata) ydata3 = map(lambda x: x * 3, ydata) ydata4 = map(lambda x: x * 4, ydata) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.add_serie(y=ydata3, x=xdata) chart.add_serie(y=ydata4, x=xdata) chart.buildhtml() output_file.write(chart.htmlcontent) # --------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=350) chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") nb_element = 100 xdata = range(nb_element) xdata = map(lambda x: 100 + x, xdata) ydata = [i + random.randint(1, 10) for i in range(nb_element)] ydata2 = map(lambda x: x * 2, ydata) chart.add_serie(y=ydata, x=xdata) chart.add_serie(y=ydata2, x=xdata) chart.buildhtml() output_file.write(chart.htmlcontent) # --------------------------------------- type = "linePlusBarChart"
extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S"} #extra_serie = None chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.add_serie(name="serie 3", y=ydata3, x=xdata, extra=extra_serie) chart.add_serie(name="serie 4", y=ydata4, x=xdata, extra=extra_serie) chart.buildhtml() output_file.write(chart.htmlcontent) #--------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=350, date=True, x_axis_date_format="%d %b %Y %I") chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") xdata = list(range(nb_element)) xdata = [start_time + x * 1000000000 for x in xdata] ydata = [i + random.randint(1, 10) for i in list(range(nb_element))] ydata2 = [x * 2 for x in ydata] extra_serie = {"tooltip": {"y_start": "There is ", "y_end": " calls"}, "date_format": "%d %b %Y %I:%M:%S %p"} chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.buildhtml() output_file.write(chart.htmlcontent)
#extra_serie = None chart.add_serie(name="serie 1", y=ydata, x=xdata, extra=extra_serie) chart.add_serie(name="serie 2", y=ydata2, x=xdata, extra=extra_serie) chart.add_serie(name="serie 3", y=ydata3, x=xdata, extra=extra_serie) chart.add_serie(name="serie 4", y=ydata4, x=xdata, extra=extra_serie) chart.buildcontent() output_file.write(chart.htmlcontent) #--------------------------------------- type = "stackedAreaChart" chart = stackedAreaChart(name=type, height=350, date=True, x_axis_format="%d %b %Y %I", jquery_on_ready=True) chart.set_containerheader("\n\n<h2>" + type + "</h2>\n\n") xdata = list(range(nb_element)) xdata = [start_time + x * 1000000000 for x in xdata] ydata = [i + random.randint(1, 10) for i in list(range(nb_element))] ydata2 = [x * 2 for x in ydata] extra_serie = { "tooltip": { "y_start": "There is ", "y_end": " calls" }, "date_format": "%d %b %Y %I:%M:%S %p"